Occupant protection apparatus

ABSTRACT

First and second panels of air bag material are secured to one another with at least one seam defining a portion of a perimeter of a cavity bounded by the first and second panels, which is open along at least one unseamed portion extending along the first and second panels between endpoints of at least one seam. An opening in the second panel receives an end portion of an air bag inflator. Inflation gas generated by the air bag inflator is discharged into the air bag through the at least one unseamed portion, at least one of which is oriented downwards when installed in a vehicle. An air bag module cover incorporates first and second laterally opening door portions and a lower downward opening door portion that provide for a downward and outward initial deployment of the air bag.

BRIEF DESCRIPTION OF THE DRAWINGS

In the accompanying drawings:

FIG. 1 illustrates a plan view of an air bag assembly and a fragmentary section thereof;

FIG. 2 illustrates a first cross-sectional view of the air bag assembly illustrated in FIG. 1;

FIG. 3 illustrates a side view of a diffuser portion of the air bag assembly illustrated in FIG. 1;

FIG. 4 illustrates a top view of a first embodiment of a diffuser;

FIG. 5 illustrates a bottom view of the first embodiment of the diffuser;

FIG. 6 illustrates a detailed cross-sectional view corresponding to FIG. 2;

FIG. 7 illustrates a bottom view of a second embodiment of a diffuser;

FIG. 8 illustrates a top view of the second embodiment of the diffuser;

FIG. 9 illustrates a plan view of a steering wheel assembly containing an air bag inflator module;

FIG. 10 illustrates an end view of an air bag inflator module cover incorporated in the air bag inflator module illustrated in FIG. 9;

FIG. 11 illustrates a cross-sectional view of the air bag inflator module undergoing an early stage of inflation;

FIG. 12 illustrates a plan view of the steering wheel assembly illustrated in FIG. 9, wherein the air bag inflator module is undergoing a subsequent stage of inflation to that illustrated in FIG. 11; and

FIG. 13 illustrates a side view of the air bag inflator module illustrated in FIG. 12.

DESCRIPTION OF EMBODIMENT(S)

Referring to FIGS. 1-6, an occupant protection apparatus 10 comprises a diffuser 12 comprising first 14 and second 16 panels of air bag material 18 attached to one another with at least one seam 20 defining a portion of a perimeter 22 of a cavity 24 bounded by the first 14 and second 16 panels and open along at least one unseamed portion 26 extending along the first 14 and second 16 panels between endpoints 27 of the at least one seam 20. The second panel 16 incorporates a first inflator opening 28 adapted to receive an outlet end portion 30 of an air bag inflator 32 containing a plurality of discharge orifices 33 of the air bag inflator 32, wherein all of the discharge orifices 33 of the air bag inflator 32 are located within the cavity 24 upon assembly thereof therewith. A retaining structure 34 located on an inside 36 of the cavity 24 comprises a plate portion 38 and a deflection ring 40, wherein the plate portion 38 incorporates a second inflator opening 42 adapted to receive the outlet end portion 30 of the air bag inflator 32 therethrough. The diffuser 12 with the retaining structure 34 therein is located within an air bag 44 constructed of third 46 and fourth 48 panels of air bag material 18, for example, sewn together along a peripheral seam 50, wherein the third panel 46 incorporates a third inflator opening 52 adapted to receive the outlet end portion 30 of the air bag inflator 32 therethrough. The plate portion 38 of the retaining structure 34 incorporates, or is adapted to receive, a plurality of fasteners 54 outside the periphery of the second inflator opening 42, which are adapted to engage corresponding first holes 56 in the second panel 16 of the diffuser 12 outside the periphery of the first inflator opening 28, and which are adapted to engage corresponding holes 57 in the third panel 46 of the air bag 44 outside the periphery of the third inflator opening 52, corresponding holes 58 in a flange 60 extending from the periphery of the air bag inflator 32, and corresponding mounting holes 62 in a structural portion 64 of an air bag inflator module 66. Accordingly, the retaining structure 34 and associated fasteners 54 provide for clamping portions of the second panel 16 of the diffuser 12 and the third panel 46 of the air bag 44 between the plate portion 38 of the retaining structure 34 and the flange 60 extending from the air bag inflator 32, and provide for mounting the assembly of the diffuser 12, air bag 44, and air bag inflator 32 to the structural portion 64 of the air bag inflator module 66. For example, as illustrated in FIGS. 2, 6 and 11, the fasteners 54 may comprise threaded studs 68 attached to the plate portion 38 of the retaining structure 34, which cooperate with associated nuts 70. It should be understood that the fasteners 54, are not limited to any particular type, and, for example, could be selected from any combination of threaded screws or bolts with associated nuts, threaded studs with associated nuts, studs with push-on nuts, rivets, pins, snap-tabs, or some other fastening system.

Upon assembly, the outlet end portion 30 of the air bag inflator 32 extends through the third inflator opening 52 in the third panel 46 of the air bag 44, through the first inflator opening 28 in the second panel 16 of the diffuser 12, through the second inflator opening 42 in the plate portion 38 of the retaining structure 34, and into the cavity 24 within the diffuser 12 so that all of the discharge orifices 33 of the air bag inflator 32 become located within the cavity 24. Upon actuation of the air bag inflator 32, for example, responsive to a crash, inflation gas 72 generated by the air bag inflator 32 is discharged from the discharge orifices 33 at the outlet end portion 30 of the air bag inflator 32, at least a portion of which inflation gas 72 is deflected by the deflection ring 40 of the retaining structure 34 that extends towards the inside 36 of the cavity 24 from the plate portion 38 of the retaining structure 34, so as to mitigate against direct impingement of the inflation gas 72 against the air bag material 18 so as to mitigate against a premature failure thereof. The retaining structure 34 further comprises an indexing tab 74 extending from the plate portion 38 of the retaining structure 34 and adapted to cooperate a second hole 76 in the second panel 16 of the diffuser 12 outside the periphery of the first inflator opening 28 therein, and with corresponding holes in the third panel 46 of the air bag 44 and the flange 60 extending from the air bag inflator 32, so as to provide for aligning the air bag inflator 32 with the diffuser 12 and with the air bag 44. Inflation gas 72 discharges from the cavity 24 of the diffuser 12 through the at least one unseamed portion 26 thereof, at least one of which is oriented substantially downwards when the diffuser 12 is installed within the air bag 44 and the air bag 44 is installed in a vehicle 78.

The air bag material 18 of the first 14 and second 16 panels may, for example, comprise any material known for use in the construction of air bags, for example, either fabrics or non-woven materials, coated or uncoated. For example, in one embodiment, the air bag material 18 comprises a fabric 80 is coated with a silicone coating material 82 on at least a first surface 84 thereof, wherein the first surface 84 of the first 14 and second 16 panels are each oriented so as to face towards the cavity 24, and the woven fibers 80′ of the fabric 80 are oriented in a direction 86 that is substantially oblique with respect to a direction 88 of woven fibers in the air bag 44. Other coatings may be used, for example, neoprene. Alternatively, the air bag material 18 may be an uncoated fabric, or a non-woven material.

Referring to FIGS. 1, 4 and 5, in accordance with a first embodiment of the diffuser 12.1, the at least one seam 20 comprises a plurality of seams 20 extending along a corresponding a plurality of circular arcs 90, each substantially along a common circle 92 substantially centered about the first inflator opening 28, wherein, for example, a first seam 20.1 extends over a first circular arc 90.1 of about 120 degrees centered about a vertical axis 94, so as to provide for substantially blocking an upward flow of inflation gas 72 form the diffuser 12. For example, the seams 20 may be sewn with stitching, for example, lock stitching, along one, two or more lines, or some pattern of stitching. The first embodiment of the diffuser 12.1 further comprises second 20.2 and third 20.2 seams along corresponding second 90.2 and third 90.3 circular arcs, each on opposing lateral sides 96.1, 96.2 of the diffuser 12 and extending downwards over about a 30 degree arc commencing about 15 degrees below the horizontal axis 98. The arrangement of the first 20.1, second 20.2, and third 20.3 seams provides for corresponding first 26.1, second 26.2 and third 26.3 unseamed portions that constitute corresponding first 100.1, second 100.2 and third 100.3 outlets from the diffuser, wherein the first outlet 100.1 is located substantially downwards over about a 90 degree arc and provides for a substantially downward flow of inflation gas 72 from the diffuser 12.1, and the second 100.2 and third 100.3 outlets provide for a substantially lateral flow of inflation gas 72 therefrom—slightly upwardly directed—in both lateral directions. Generally, the first circular arc 90.1 could extend over a range as small as about 60 degrees and as large as about 270 degrees, for which in the latter case, the at least one seam 20 would constitute a single seam 20.1.

Referring to FIGS. 4-6, the diffuser 12 may be constructed with a plurality of first panels 14 and a plurality of second panels 16, so as to provide for also shielding the air bag 44 from the heat of the air bag inflator 32. Furthermore, the first inflator opening 28 in the second panel 16, and or the outer periphery of the first 14 and second 16 panels, may incorporate corresponding at least one witness tab 102 so as to provide for aligning the first 14 and second 16 panels, and the associated directions 86 of the associated woven fibers 80′ during an associated assembly operation.

In the first embodiment of the diffuser 12.1, the first 14 and second 16 panels are illustrated, for example, as substantially circular. Referring to FIGS. 7 and 8, in accordance with a second embodiment of a diffuser 12.2, the associated first 14′ and second 16′ panels are rectangular shaped with either a corresponding single seam 20.4 proximate to the periphery thereof so as to provide for a single unseamed portion 26.4 and a corresponding single outlet 100.1 at the bottom 104 of the diffuser 12.2; or alternatively, with a plurality of seams 20.5, 20.6 and 20.7 and associated unseamed portions 26.5, 26.6, 26.7 and a corresponding plurality of outlets 100.1, 100.2, 100.3 directed downwards and laterally outwards respectively.

In accordance with a method of providing an occupant protection apparatus 10, at least one each of first 14 and second 16 panels are provided, and a first inflator opening 28 and a plurality of first holes 56 and a second hole 76 are punched in the at least one second panel 16. The first 14 and second 16 panels are joined together along at least one seam 20 so as to form a diffuser 12, wherein the at least one seam 20 is adapted so as to leave at least one unseamed portion 26 extending along the at least one first panel and the at least one second panel between endpoints of the at least one seam 20. For example, the at least one seam 20 may comprises a plurality of seams 20, each along a circular arcs 90 of a common circle 92. A third inflator opening 52 and holes corresponding to the first holes 56 and second hole 76 are punched in a third panel 46 of air bag material 18—which may be reinforced with a reinforcement 106, e.g. constructed of air bag material 18 sewn to the third panel 46, in the region of the third inflator opening 52—and the diffuser 12 is tacked to the third panel 46 after aligning the first 28 and third 52 inflator openings. A fourth panel 48 is then sewn to the third panel 46 along a common periphery so as to form an air bag 44. A retaining structure 34 is inserted through the first 28 and third 52 inflator openings within the cavity 24 defined within the diffuser 12. An outlet end portion 30 of an air bag inflator 32 is inserted through the first 28 and third 52 inflator openings and through a second inflator opening 42 in a plate portion 38 of the retaining structure 34, and the third panel 46 of the air bag 44 and the second panel 16 of the diffuser 12 are then clamped between the plate portion 38 of the retaining structure 34 and a flange 60 extending from the air bag inflator 32 using fasteners 54 through the first holes 56. The retaining structure 34 may incorporate a deflection ring 40 to provide for deflecting some or all of the inflation gas 72 generated by the air bag inflator 32 so as to mitigate against the direct impingement of the hot inflation gas 72 against associated components constructed of air bag material 18. The air bag 44 is installed in an air bag inflator module 66 in a vehicle 78 so that at least one unseamed portion 26.1 and a corresponding outlet 100.1 are oriented substantially downwards.

Referring to FIGS. 9 and 10, the air bag inflator module 66 is enclosed with an associated air bag module cover 108, and is installed in a steering wheel 110 of the vehicle 78. The air bag module cover 108 is adapted with a conventional vertical tear seam 112 which provides for laterally opening door portions 114, each of which incorporates upper and lower vertical tear portions 116 above and below the associated hinge portion 118. The air bag module cover 108 is also adapted with a lower door portion 120 and associated tear seams 122, which, is adapted to open downwards responsive to the downwards flow of inflation gas 72 from the diffuser 12. For example, the air bag module cover 108 could be constructed from a molded plastic, foam or composite material.

Referring to FIGS. 11-13, the volume of the cavity 24 of the diffuser 12 is substantially smaller than the volume of the associated air bag 44, but is sufficiently large so that the initial inflation of the cavity 24 by the air bag inflator 32 is sufficient to burst the tear seams 112, 122 of the air bag module cover 108 without relying upon a flow of inflation gas 72 to, and a resultant filling of, the remainder of the air bag 44. The predominant downward flow of inflation gas 72 from the diffuser 12 causes the air bag 44 to initially inflate predominantly in a downward direction, which provides for reducing occupant chest displacement and provides for protection of the occupant from the lower rim 124 of the steering wheel 110.

Referring to FIG. 2, the air bag 44 may incorporate one or more tethers 126 to provide for controlling the deployment characteristics thereof, for example, to limit the depth of the deployed air bag 44 between the steering wheel 110 and the occupant. For example, a plurality of tethers 126 may be incorporated between the third 46 and fourth 48 panels of the air bag 44, so as to be operative between a first region 128 proximate to third inflator opening 52 in the third panel 46 of the air bag 44 clamped by the retaining structure 34, and a second region 130 of the fourth panel 48 of the air bag 44. For example, the tethers 126 could be constructed of air bag material 18, e.g. fabric 80, the ends of which are sewn to the respective first 128 and second 130 regions of the third 46 and fourth 48 panels of the air bag 44.

Referring again to FIGS. 9-11, the air bag module cover 108 comprises a face panel 132 operatively coupled to a structural portion 64 of an air bag inflator module 66, wherein the face panel 132 in a nominal orientation 134 comprises first 114.1 and second 114.2 lateral door portions and a lower door portion 120. The first 114.1 and second 114.2 lateral door portions are each operatively coupled to respective first 136.1 and second 136.2 laterally distal portions of the face panel 132 by corresponding first 118.1 and second 118.2 distal hinge portions, and are separated from one another by a central substantially vertical tear seam 112, wherein the first 136.1 and second 136.2 laterally distal portions of the face panel 132 are on opposing lateral sides of the face panel 132. First 116.1 and second 116.2 lower vertical distal tear portions are each located below the respective first 118.1 and second 118.2 distal hinge portions, wherein the first lower vertical distal tear portion 116.1 is located between the first laterally distal portion 136.1 of the face panel 132 and the first lateral door portion 114.1, and the second lower vertical distal tear portion 116.2 is located between the second laterally distal portion of the face panel 132 and the second lateral door portion 114.2. Respective first 138.1 and second 138.2 upper edges of the first 114.1 and second 114.2 lateral door portions are bounded by a separable upper boundary 140, for example, an associated tear seam in the air bag module cover 108 or a cosmetically hidden separation of the first 138.1 and second 138.2 upper edges of the first 114.1 and second 114.2 lateral door portions from a proximal portion of the air bag module cover 108.

The lower door portion 120 is operatively coupled to the air bag inflator module 66 through a lower hinge portion 142 operatively coupled to a structural portion 64 of the air bag inflator module 66, for example, through the air bag module cover 108, wherein the lower door portion 120 is located on a bottom side 144 of the air bag module cover. A first edge 146 of the lower door portion 120 abuts respective first 148.1 and second 148.2 lower edges of the first 114.1 and second 114.2 lateral door portions at a separable lower boundary 150, wherein the first edge 146 of the lower door portion 120 is distal with respect to the lower hinge portion 142, and the lower door portion 120 comprises first 152.1 and second 152.2 lateral separable boundaries defining first 154.1 and second 154.2 lateral edges of the lower door portion 120. For example, the separable lower boundary 150 and the first 152.1 and second 152.2 lateral separable boundaries may comprise either associated tear seams in the air bag module cover 108 or corresponding cosmetically hidden separations, or a combination thereof.

The air bag inflator module 66 incorporating the air bag module cover 108 incorporates an air bag 44 incorporating either a diffuser 12—or a deflector comprising an above-described diffuser 12 for which all of the inflation case is directed substantially downwards through a single associated outlet 100.1—adapted to direct a substantial portion of inflation gas 72 in a downward direction into the air bag 44 when the air bag 44 is operatively coupled to an air bag inflator 32 and the air bag inflator 32 is actuated so as to generate the inflation gas 72. Referring to FIGS. 11-13, upon actuation, the first 116.1 and second 116.2 lower vertical distal tear portions and the separable lower boundary 150 and the first 152.1 and second 152.2 lateral separable boundaries either rupture or become separated so as to provide for the lower portions of the first 114.1 and second 114.2 lateral door portions to open laterally, and for the lower door portion 120 to open downwards, thereby providing for the air bag 44 to initially deploy downwards and outwards through the lower portion of the air bag module cover 108, after which the vertical tear seam 112, and the separable upper 140 boundary either rupture or become separated thereby enabling the first 114.1 and second 114.2 lateral door portions to open so as to provide for a completion of the deployment of the air bag 44.

The air bag module cover 108 may also incorporate first 116.3 and second 116.4 upper vertical distal tear portions above the respective first 118.1 and second 118.2 distal hinge portions, wherein the first upper vertical distal tear portion 116.3 is located between the first laterally distal portion 136.1 of the face panel 132 and the first lateral door portion 114.1, and the second upper vertical distal tear portion 116.4 is located between the second laterally distal portion 136.2 of the face panel 132 and the second lateral door portion 114.2, so as to provide for a relatively early opening of the top portions of the first 114.1 and second 114.2 lateral door portions during the inflation process.

While specific embodiments have been described in detail, those with ordinary skill in the art will appreciate that various modifications and alternatives to those details could be developed in light of the overall teachings of the disclosure. For example, although an embodiment the occupant protection apparatus 10 has been illustrated in the environment of a driver-side air bag inflation system, the particular application is not considered to be limiting, and it should be recognized that other applications are possible, for example, passenger-side or side-impact air bag inflation systems. Accordingly, the particular arrangements disclosed are meant to be illustrative only and not limiting as to the scope of the invention, which is to be given the full breadth of the appended claims, and any and all equivalents thereof. 

1. An air bag module cover, comprising: a. a face panel operatively coupleable to a first structural portion of an air bag inflator module, wherein said face panel in a nominal orientation comprises: i. first and second lateral door portions separated by a central substantially vertical tear seam; ii. a first distal hinge portion operatively coupling said first lateral door portion to a first laterally distal portion of said face panel; iii. a first lower vertical distal tear portion below said first distal hinge portion and between said first laterally distal portion of said face panel and said first lateral door portion; iv. a second distal hinge portion operatively coupling said second lateral door portion to a second laterally distal portion of said face panel; and v. a second lower vertical distal tear portion below said second distal hinge portion and between said second laterally distal portion of said face panel and said second lateral door portion, wherein said first and second laterally distal portions of said face panel are on opposing lateral sides of said face panel, and respective first and second upper edges of said first and second lateral door portions are bounded by a separable upper boundary; and b. a lower door portion operatively coupleable through a lower hinge portion to either said first or a second structural portion of said air bag inflator module, wherein said lower door portion is located on a bottom side of said air bag module cover, a first edge of said lower door portion abuts respective first and second lower edges of said first and second lateral door portions at a separable lower boundary, said first edge of said lower door portion is distal with respect to said lower hinge portion, and said lower door portion comprises first and second lateral separable boundaries defining first and second lateral edges of said lower door portion; wherein the module is configured so that the lower door portion opens and deploys before the first and second lateral door portions on the face panel.
 2. An air bag module cover as recited in claim 1, wherein said separable upper boundary comprises a tear seam in said air bag module cover.
 3. An air bag module cover as recited in claim 1, further comprising: a. a first upper vertical distal tear portion above said first distal hinge portion and between said first laterally distal portion of said face panel and said first lateral door portion; and b. a second upper vertical distal tear portion above said second distal hinge portion and between said second laterally distal portion of said face panel and said second lateral door portion.
 4. An air bag module cover as recited in claim 1, wherein said separable lower boundary and said first and second lateral separable boundaries comprise respective tear seams in said air bag module cover.
 5. An air bag module cover as recited in claim 1, further comprising an air bag covered by said air bag module cover, wherein said air bag incorporates a diffuser or deflector adapted to direct at least a portion of inflation gas in a downward direction into said air bag when said air bag is operatively coupled to an air bag inflator and said air bag inflator is actuated so as to generate said inflation gas.
 6. An airbag module comprising: the module cover as set forth in claim 1, an airbag and an inflator for inflating the airbag.
 7. The module of claim 6, wherein the separable upper boundary comprises a tear seam in the air bag module cover. 